Meiosis-specific protein that initiates meiotic recombination by catalyzing the formation of double-strand breaks in DNA via a transesterification reaction; required for homologous chromosome pairing and synaptonemal complex formation; Required for meiotic recombination. Mediates DNA cleavage that forms the double-strand breaks (DSB) that initiate meiotic recombination. The action of SPO11 is important in setting off a regulatory chain of events encompassing 5’ to 3’ resection. When there are no SPO11-DSBs, resection of a site specific VDE-DSB takes place but it is faster than in wild- [...] (398 aa)

0.679

HFM1

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA (1187 aa)

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis (302 aa)

0.573

YMR114C

Protein of unknown function; may interact with ribosomes, based on co-purification experiments; green fluorescent protein (GFP)-fusion protein localizes to the nucleus and cytoplasm; YMR114C is not an essential gene (368 aa)

0.520

ZIP2

Meiosis-specific protein involved in normal synaptonemal complex formation and pairing between homologous chromosomes during meiosis; Required for initiation of meiotic chromosome synapsis. Involved in synaptonemal complex formation, a structure that tethers a pair of homologous chromosomes along their lengths and plays a central role in recombination and homolog segregation during meiosis. Required for the normal localization of MSH4 to chromosomes (704 aa)

a tab-delimited file describing the names, domains and annotated functions of the network proteins

Browse interactions in tabular form:

node1

node2

node1 accession

node2 accession

node1 annotation

node2 annotation

score

ECM11

GMC2

YDR446W

YLR445W

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Meiosis-specific protein that initiates meiotic recombination by catalyzing the formation of double-strand breaks in DNA via a transesterification reaction; required for homologous chromosome pairing and synaptonemal complex formation; Required for meiotic recombination. Mediates DNA cleavage that forms the double-strand breaks (DSB) that initiate meiotic recombination. The action of SPO11 is important in setting off a regulatory chain of events encompassing 5’ to 3’ resection. When there are no SPO11-DSBs, resection of a site specific VDE-DSB takes place but it is faster than in wild- [...]

0.698

ECM11

SPO16

YDR446W

YHR153C

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Meiosis-specific protein essential for chromosome synapsis, involved in completion of nuclear divisions during meiosis; induced early in meiosis; Involved in chromosome segregation during sporulation

0.416

ECM11

ZIP2

YDR446W

YGL249W

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Meiosis-specific protein involved in normal synaptonemal complex formation and pairing between homologous chromosomes during meiosis; Required for initiation of meiotic chromosome synapsis. Involved in synaptonemal complex formation, a structure that tethers a pair of homologous chromosomes along their lengths and plays a central role in recombination and homolog segregation during meiosis. Required for the normal localization of MSH4 to chromosomes

Non-essential protein apparently involved in meiosis, GFP fusion protein is present in discrete clusters in the nucleus throughout mitosis; may be involved in maintaining chromatin structure; May be involved in cell wall organization and biogenesis

Meiosis-specific protein that initiates meiotic recombination by catalyzing the formation of double-strand breaks in DNA via a transesterification reaction; required for homologous chromosome pairing and synaptonemal complex formation; Required for meiotic recombination. Mediates DNA cleavage that forms the double-strand breaks (DSB) that initiate meiotic recombination. The action of SPO11 is important in setting off a regulatory chain of events encompassing 5’ to 3’ resection. When there are no SPO11-DSBs, resection of a site specific VDE-DSB takes place but it is faster than in wild- [...]

Meiosis-specific protein involved in normal synaptonemal complex formation and pairing between homologous chromosomes during meiosis; Required for initiation of meiotic chromosome synapsis. Involved in synaptonemal complex formation, a structure that tethers a pair of homologous chromosomes along their lengths and plays a central role in recombination and homolog segregation during meiosis. Required for the normal localization of MSH4 to chromosomes

0.511

HFM1

MSH4

YGL251C

YFL003C

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Protein of the MutS family, forms a dimer with Msh4p that facilitates crossovers between homologs during meiosis; msh5-Y823H mutation confers tolerance to DNA alkylating agents; homologs present in C. elegans and humans; Involved in meiotic recombination. Facilitate crossovers between homologs during meiosis

0.875

HFM1

SPO11

YGL251C

YHL022C

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis-specific protein that initiates meiotic recombination by catalyzing the formation of double-strand breaks in DNA via a transesterification reaction; required for homologous chromosome pairing and synaptonemal complex formation; Required for meiotic recombination. Mediates DNA cleavage that forms the double-strand breaks (DSB) that initiate meiotic recombination. The action of SPO11 is important in setting off a regulatory chain of events encompassing 5’ to 3’ resection. When there are no SPO11-DSBs, resection of a site specific VDE-DSB takes place but it is faster than in wild- [...]

0.743

HFM1

SPO16

YGL251C

YHR153C

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis-specific protein essential for chromosome synapsis, involved in completion of nuclear divisions during meiosis; induced early in meiosis; Involved in chromosome segregation during sporulation

0.784

HFM1

ZIP2

YGL251C

YGL249W

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis-specific protein involved in normal synaptonemal complex formation and pairing between homologous chromosomes during meiosis; Required for initiation of meiotic chromosome synapsis. Involved in synaptonemal complex formation, a structure that tethers a pair of homologous chromosomes along their lengths and plays a central role in recombination and homolog segregation during meiosis. Required for the normal localization of MSH4 to chromosomes

0.677

MAE1

SPO16

YKL029C

YHR153C

Mitochondrial malic enzyme, catalyzes the oxidative decarboxylation of malate to pyruvate, which is a key intermediate in sugar metabolism and a precursor for synthesis of several amino acids

Meiosis specific DNA helicase involved in the conversion of double-stranded breaks to later recombination intermediates and in crossover control; catalyzes the unwinding of Holliday junctions; has ssDNA and dsDNA stimulated ATPase activity; DNA-dependent ATPase. Required in the control of double strand breaks transition and crossover during meiosis. Unwinds DNA in the 3’ TO 5’ direction. Prefers single-stranded DNA

Meiosis-specific protein that initiates meiotic recombination by catalyzing the formation of double-strand breaks in DNA via a transesterification reaction; required for homologous chromosome pairing and synaptonemal complex formation; Required for meiotic recombination. Mediates DNA cleavage that forms the double-strand breaks (DSB) that initiate meiotic recombination. The action of SPO11 is important in setting off a regulatory chain of events encompassing 5’ to 3’ resection. When there are no SPO11-DSBs, resection of a site specific VDE-DSB takes place but it is faster than in wild- [...]